| An overview of a decade of applied debris-flow runout modeling in Switzerland: challenges and recommendations
Graf, C., Christen, M., McArdell, B. W., & Bartelt, P. (2019). An overview of a decade of applied debris-flow runout modeling in Switzerland: challenges and recommendations. In J. W. Kean, J. A. Coe, P. M. Santi, & B. K. Guillen (Eds.), Association of environmental and engineering geologists special publication: Vol. 28. Debris-flow hazards mitigation: mechanics, monitoring, modeling, and assessment (pp. 685-692). Association of Environmental and Engineering Geologists. |
| Analysis of an artificially triggered avalanche at the Nepheline Syenite Mine on Stjernøya, Alta, Northern Norway
Frauenfelder, R., Jónsson, Á., Lied, K., Schwerdtfeger, D., Bergum, G., Bühler, Y., & Stoffel, L. (2014). Analysis of an artificially triggered avalanche at the Nepheline Syenite Mine on Stjernøya, Alta, Northern Norway. In ISSW proceedings. International snow science workshop proceedings 2014 (pp. 689-696). |
| Applying numerical snow avalanche simulations for hazard assessment in the Kamchik pass area, Uzbekistan
Semakova, E., Safronov, V., Mamaraimow, A., Nurtaev, B., Semakov, D., & Bühler, Y. (2018). Applying numerical snow avalanche simulations for hazard assessment in the Kamchik pass area, Uzbekistan. In International snow science workshop proceedings 2018 (pp. 701-704). |
| Automated risk mapping for buildings endangered by avalanches
Ettlin, L., Bründl, M., Christen, M., & Bühler, Y. (2014). Automated risk mapping for buildings endangered by avalanches. In ISSW proceedings. International snow science workshop proceedings 2014 (pp. 250-255). |
| Avalanche dynamics model RAMMS applied in two North American climates
Wilbur, C., Mears, A., Margreth, S., & Burak, S. (2014). Avalanche dynamics model RAMMS applied in two North American climates. In ISSW proceedings. International snow science workshop proceedings 2014 (pp. 189-195). |
| Comparsion of powder snow avalanche simulation models (<em>RAMMS</em> and <em>SamosAT</em>) based on reference events in Switzerland
Schmidtner, K., Bartelt, P., Fischer, J. T., Sailer, R., Granig, M., Sampl, P., … Bühler, Y. (2018). Comparsion of powder snow avalanche simulation models (RAMMS and SamosAT) based on reference events in Switzerland. In International snow science workshop proceedings 2018 (pp. 740-745). |
| Gefahrenkartierung Mattertal: Grundlagenbeschaffung und numerische Modellierung von Murgängen
Graf, C., Deubelbeiss, Y., Bühler, Y., Meier, L., McArdell, B., Christen, M., & Bartelt, P. (2013). Gefahrenkartierung Mattertal: Grundlagenbeschaffung und numerische Modellierung von Murgängen. In C. Graf (Ed.), Mattertal – ein Tal in Bewegung (pp. 85-112). Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL. |
| Integral hazard management using a unified software environment. Numerical simulation tool "RAMMS" for gravitational natural hazards
Christen, M., Bühler, Y., Bartelt, P., Leine, R., Glover, J., Schweizer, A., … Volkwein, A. (2012). Integral hazard management using a unified software environment. Numerical simulation tool "RAMMS" for gravitational natural hazards. In G. Koboltschnig, J. Hübl, & J. Braun (Eds.), 12th congress INTERPRAEVENT 2012. 23 to 26 April 2012. Grenoble, France. Conference proceedings "Protection of living space from natural hazards" (pp. 77-86). |
| Integrated natural hazards protection concept Vitznau LU - case study Plattenbach
Hohermuth, B., Graf, C., & Heilig, J. (2016). Integrated natural hazards protection concept Vitznau LU - case study Plattenbach. In G. Koboltschnig (Ed.), 13th congress INTERPRAEVENT 2016. 30 May to 2 June 2016. Lucerne, Switzerland. Conference proceedings "Living with natural risks" (pp. 535-543). |
| Merging of recent developments in avalanche simulation technology into practice
Bühler, Y., Christen, M., Dreier, L., Feistl, T., & Bartelt, P. (2014). Merging of recent developments in avalanche simulation technology into practice. In ISSW proceedings. International snow science workshop proceedings 2016 (pp. 635-642). |
| Performance of 2D debris flow simulation model RAMMS. Back-analysis of field events in Italian Alps
Simoni, A., Mammoliti, M., & Graf, C. (2012). Performance of 2D debris flow simulation model RAMMS. Back-analysis of field events in Italian Alps (p. (6 pp.). Presented at the Annual international conference on geological and earth sciences (GEOS 2012). . |
| Powder snow impact of tall vibrating structures
Caviezel, A., Margreth, S., Ivanova, K., Sovilla, B., & Bartelt, P. (2021). Powder snow impact of tall vibrating structures. In M. Papadrakakis & M. Fragiadakis (Eds.), Compdyn 2021 proceedings (p. 19112 (13 pp.). Institute of Research & Development for Computational Methods in Engineering Sciences. |
| RAMMS::RISK: a tool for mapping natural hazard risks
Ettlin, L., Bründl, M., Christen, M., & Bühler, Y. (2016). RAMMS::RISK: a tool for mapping natural hazard risks. In G. Koboltschnig (Ed.), 13th congress INTERPRAEVENT 2016. 30 May to 2 June 2016. Lucerne, Switzerland. Extended abstracts "Living with natural risks" (pp. 200-201). International Research Society INTERPRAEVENT. |
| Sediment transfer mapping in a high-alpine catchment using airborne LiDAR
Bühler, Y., & Graf, C. (2013). Sediment transfer mapping in a high-alpine catchment using airborne LiDAR. In C. Graf (Ed.), Mattertal – ein Tal in Bewegung (pp. 113-124). Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL. |
| The January 18<sup>th</sup> 2017 Rigopiano disaster in Italy - analysis of the avalanche dynamics
Frigo, B., Chiaia, B., Chiambretti, I., Bartelt, P., Maggioni, M., & Freppaz, M. (2018). The January 18th 2017 Rigopiano disaster in Italy - analysis of the avalanche dynamics. In International snow science workshop proceedings 2018 (pp. 6-10). |
| Two different starting conditions in numerical debris-flow models – case study at Dorfbach, Randa (Valais, Switzerland)
Deubelbeiss, Y., & Graf, C. (2013). Two different starting conditions in numerical debris-flow models – case study at Dorfbach, Randa (Valais, Switzerland). In C. Graf (Ed.), Mattertal – ein Tal in Bewegung (pp. 125-138). Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL. |